Home
    • Expertise
    • Takeback
    ProjectsSamples0
    • Home
    • Projects
    • Hemmi Fayet
    High end kitchen doors cabinetry Richlite recycled paper composite

    Hemmi Fayet

    studio kitchen

    At first the space feels unfinished, with pops of colour set against raw plaster, the effect is exaggerated by the nearly six metre high ceilings. But they were intended to look imperfect – using recycled paper composite on the doors and worktops, a material that will patina and age a bit like leather or linoleum - a true sign of quality and honesty in materials. Because Richlite is so strong the doors and drawer fronts only need to be 12mm thick, using specialist hinges commonly used for glass.

    Project

    Studio Space

    Architect

    Hemmi Fayet Architekten

    Application

    Cubicle partitions, doors, furniture + commercial kitchen worktop

    Material

    Richlite Grays Harbor

    Photograhy

    Hannes Henz

    Location

    Zürich, Switzerland

    Hemmi fayet tea point surface cabinet material made with Richlite Grays Harbor
    Architectural toilet cubicle partition walls with Richlite Black diamond recycled paper composite
    Compressed paper composite panels for communal work kitchens with Richlite Grays Harbour

    More Projects

    • Modern restroom interior at Paavo Nurmi Stadium with long Durat vanity tops, in a soft pink tone, round wooden mirrors, tiled walls and contemporary washbasins.

      Paavo Nurmi

      Playful public interiorsDurat
    • Bright Café in Helsinki, featuring Durat dining tables made from recycled plastic waste in the colour D0060-03, featuring with large windows and indoor planting.

      Café Carusel

      Lasting surfacesDurat
    • Recycled seating at the Adidas Arena made with recycled polycarbonate material waste, from Le Pavé

      Adidas Arena

      Circular seatingLe Pavé
    View allView all
    Surface Matter - HomeMaterials used better.B Corp

    Follow

    • Instagram
    • LinkedIn
    • Pinterest
    • Press

    Sitemap

    • About
    • Articles
    • Contact
    • Projects
    • Resources
    • Shop
    • Material Rescue ↗

    Newsletter

    Copyright © 2026 Surface Matter. Terms of use